Kinetic Theory (Kinetikos - Moving ) Based on the idea that particles of matter are always in motion

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1 Chapter 10 Kinetic Theory (Kinetikos - Moving ) Based on the idea that particles of matter are always in motion The motion has consequences Behavior of Gases Physical Properties of Gases Ideal Gas an imaginary gas that conforms perfectly to all assumptions

2 Five Assumptions of the KMT 1. Gases consist of large number of tiny particles 2. The Particles are in Constant Motion, moving in straight lines. 3. The collisions between particles & w/ the container wall are elastic. 4. There are no forces of attraction or repulsion between the particles of a gas. 5. The average K.E. of the particles is directly proportional to the Kelvin Temperature. KE = ½ mv 2

3 Pressure exerted by the column of air in the atmosphere. Result of the earth s gravity attracting the air downward. Barometer device used to measure the atmospheric pressure on earth. Manometer device used to measure the pressure of a gas in an enclosed container.

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5 Physical Properties of Gases Defined as having indefinite shape and volume. Gases have mass Expands to occupy any space available. Easily compressed Different gases move easily through each other. Diffusion spontaneous mixing of 2 gases. Low mass = High rate Effusion gas passes through tiny opening. Gases exert pressure Fluidity ability to flow. Low density

6 Real Gas Gas that does not behave completely to the assumption of the KMT. Deviation from ideal behavior: High Pressure Low Temperature Polar molecules

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8 10-2 Liquids Definite volume but no definite shape. Liquids are fluids. Liquids attractions are a result of the IMF s.

9 Liquid Properties Surface Tension Force that tends to pull adjacent parts of a liquid s surface together, decreasing the surface area to the smallest possible size. Imbalance of forces at the surface of a liquid. Capillary Action Attraction of the surface of a liquid to the surface of a solid.

10 Viscosity Friction or Resistance to motion, that exist between molecules in a liquid. High Viscosity = Low Flow Stronger IMF = Higher Viscosity Increase KE = Low Viscosity

11 Evaporation/Boiling Vaporization Process in which a liquid changes to a gas. Evaporation Process in which particles escape the surface of a non-boiling liquid and enter the gas phase. This is caused by a greater KE at the surface of the liquid. Boiling Conversion of a liquid to a gas within the liquid as well as at its surface.

12 10-3 Solids Definite shape and definite volume.

13 Crystals Crystals have an ordered, repeated structure. The smallest repeating unit in a crystal is a unit cell. Three-dimensional stacking of unit cells is the crystal lattice. Amorphous Solids Lack internal order but yet exhibit a solid like substance. Jello is similar but it s considered a colloidal suspension.

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15 Structures of Solids Unit Cells

16 Structures of Solids Unit Cells

17 Structures of Solids Close Packing of Spheres

18 Close Packing of Spheres A crystal is built up by placing close packed layers of spheres on top of each other. There is only one place for the second layer of spheres. There are two choices for the third layer of spheres: Third layer eclipses the first (ABAB arrangement). This is called hexagonal close packing (hcp). Third layer is in a different position relative to the first (ABCABC arrangement).

19 Close Packing of Spheres Each sphere is surrounded by 12 other spheres (6 in one plane, 3 above and 3 below). Coordination number: the number of spheres directly surrounding a central sphere.

20 Crystal Bonding Metallic Solids (mobile valence electrons) Low to High melting points Metallic bonds hold the particles together Molecular Solids (lowest melting pts) Low melting points Intermolecular forces hold the particles together Ionic Solids (hard, brittle and non-conducting) High melting points Strong electrostatic force of attraction Covalent Network Solids (strong covalent bonds between neighboring atoms) High melting points Atoms covalently bonded to the same type of atoms

21 10-4 Changes of State Phase change Conversion of a substance from one of the 3 physical states of matter to the other. Always involves a change in energy.

22 Equilibrium Equilibrium ( ) Dynamic condition in which 2 opposing changes occur at equal rates in a closed system. Components under equilibrium Phase any part of the system that has uniform composition and properties. System sample of matter being studied. Concentration - #particles per unit of volume

23 Phase Change Evaporation/Condensation Evaporation rate in which a liquid changes to a gas under its boiling point. Condensation rate in which a gas changes to a liquid. Phase change : Evaporation Condensation Liquid + Heat Vapor Vapor Liquid + Heat Freezing/Melting Freezing rate in which a liquid changes to a solid. Melting rate in which a solid changes to a liquid. Phase change : Freezing Melting Solid + Heat Liquid Liquid Solid + Heat

24 Sublimation/Deposition Phase change that occurs when a solid changes to a gas without passing through the liquid phase.

25 Possible Changes of State Changes of State Name Example Gas Liquid Condensation H 2 O(g) H 2 O(l) Liquid Gas Vaporization Br(l) Br(g) Liquid Solid Freezing H 2 O(l) H 2 O(s) Solid Liquid Melting H 2 O(s) H 2 O(l) Solid Gas Sublimation CO 2 (s) CO 2 (g)

26 Boiling Conversion of a liquid to a vapor, when the vapor pressure of the liquid is equal to the atmospheric pressure. Vapor Pressure Amount of pressure caused by the vapor of a liquid in a closed container. Boiling Point Temperature at which a liquid s vapor pressure equals the atmospheric pressure. Normal Boiling Point Temperature at which a liquid boils at Standard Pressure.

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28 Factors Affecting Boiling 2 Factors that cause boiling: Lowering the atmospheric pressure, by placing the liquid in a vacuum. Increasing the vapor pressure, by increasing the temperature of the liquid.

29 Phase Diagrams Graph of Temperature vs. Pressure that indicates points in which a substance will be a gas, liquid or a solid. Triple Point Temperature and Pressure at which a substance has all three phases at equilibrium. Critical Point Point in which a substance can t exist in the liquid state.

30 Phase Graph of Water

31 Phase Diagram

32 Molar Heats (Enthalpy) Molar Heat of Fusion/Solidification Amount of heat needed to change 1 mole of a substance from a liquid to a solid or solid to a liquid. Solid Liquid (Molar Heat of Fusion) Liquid Solid (Molar Heat of Solid) Water: Molar Heat of Fusion ( H fus ) = 6.01 kj/mol

33 Molar Heats Cont. Molar Heat of Condensation/Vaporization Amount of heat needed to change 1 mole of a substance from a liquid to a gas or a gas to a liquid. Gas Liquid (Molar Heat of Condensation) Liquid Gas (Molar Heat of Vaporization) Water: Molar Heat of Vaporization ( H vap ) = 40.7 kj/mol

34 Molar Heat Problem Determine the amount of heat needed to melt 100g of ice at 0 o C. Determine the amount of heat needed to change 100g of liquid water to steam.

35 10-5 Water Water is present in a large abundance throughout our life. 70%-75% earth s surface is water 60%-90% of the mass of most living things is water.

36 Water s the Exception Water expands when it freezes Less dense than water Reason for ice floating 3.98 o C water begins to expand due to crystal formation in water.

37 Water s Hydrogen Bonding Two Types of Strong Interactions Cohesive forces between molecules of the same type Adhesive forces between different types

38 Adhesive & Cohesive Water in a tube exhibits a curved surface called a meniscus. Adhesive forces occur between the glass and water Drawing the water up along the glass Cohesive forces in the water help hold the curve in the water level

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